Yes it's even distribution assuming `rand()`

is. We will prove this by showing that each input can generate each permutation with equal probability.

N=2 can be easily proven.
We will draw it as a tree where the the children represent each string you can get by inserting the character after comma into the leftmost string.

```
0,1 //input where 0,1 represent indices
01 10 //output. Represents permutations of 01. It is clear that each one has equal probability
```

For N, we will have every permutations for N-1, and randomly swapping the last character for N

```
(N-1 0th permutation),N ..... (N-1 Ith permutation),N ________________________
/ \ / \ \
0th permutation of N 1st permutation.... (I*N)th permutation ((I*N)+1)th permutation .... (I*N)+(I-1)th permutation
```

This shitty induction should lead you to it having even distribution.

Example:

N=2:

```
0,1
01 10 // these are the permutations. Each one has equal probability
```

N=3:

```
0,1|2 // the | is used to separate characters that we will insert later
01,2 10,2 // 01, 10 are permutations from N-1, 2 is the new value
210 021 012 201 120 102 // these are the permutations, still equal probability
```

N=4: (curved to aid reading)

```
0,1|23
01,2|3 10,2|3
012,3 021,3 210,3 102,3 120,3 201,3
0123 0132 0321 3230 2013 2031 2310 3012
0213 0231 0312 3210 1203 1230 1302 3201
2103 2130 2301 3102 1023 1032 1320 3021
```

etc

`Does it skew the resulting probabilities?`

– fredoverflow Jan 14 '12 at 10:21